Arc forming flexible ruler



' Oct. 28, 1952 w. Q. SULLIVAN ET AL ARC FORMING FLEXIBLE RULER 7 Sheets-Sheet l Filed July 26, 1947 QW. kuv

vVE/vrons MLA/AM Q.' .SULL/VAN JOHN Q. SuLL/VAN y AT To RNE V5 Oct. 28, 1952 w. Q. SULLIVAN ET AL 2,615,257

ARC FORMING FLEXIBLE RULER Filed July 2e, 1947 v sheets-sheet 2 HIIIHIIA Tron/vers Oct. 28, 1952 w. Q. SULLIVAN ET A1. 2,615,257

ARC FORMING FLEXIBLE RULER Filed July 26, 1947 7 sheets-sheet s JOHNQ 5 hun.

Afro/2 Ney/5 Oct. 28, 1952 w. Q. SULLIVAN ET A1. 2,615,257

ARC FORMING FLEXIBLE RULER Filed July 26, 1947 7' Sheets-Sheet 4 Oct. 28, 1952 W. Q. SULLIVAN ET AL 2,515,257

ARC FORMING FLEXIBLE RULER Filed July 26, 1947 7 Sheets-Sheet 5 JNVENTOR.

@ BY Jmv Jun/VAN WMV Uct. 28, 1952 w. Q. SULLIVAN ET AL 2,615,257

ARCv FORMING FLEXIBLE RULER Filed July 26, 1947 .7 Sheets-Sheet 6 1 `lll/ MMF Oct. 28, 1952 W. Q. SULLIVAN ET AL ARC Pom/11m; FLEXIBLE R ULER 7 Sheets-Sheet 7 Filed July 26, 194'? INVENTOR. ,l1/40am Q. .SULL/VAN Jc-wv Q. SULAIrAN t or-fweyf Patented Oct. 28, 1952 UNITED ARC FORMING FLEXIBLE RULER William Q.'Sullivan, North Hollywood, and John Q. Sullivan, Ocean Park, Calif.

Application July ze, 1947, serial No. 763,846

3 Claims. 1

This invention relates to improvements in drafting implements, and concerns a novel beam compass and aperspective machine.

A primary object of the invention Iis to provide a novel construction that may be advantageously employed as a beam -compass to enable the drawing of arcs of circles having extremely long radii that may approach innite distances, in which case the arc drawn is merely la. straight line.

Another object of the invention is to provide a drafting implement that may be used as a 'beam compass to draw arcs having very long radii and which is so constructed as to indicate with reasonable accuracy the radius of the arc to which the device is adjusted so that the construction can be used not only to 4draw an larc of a speciiied radius, but also to determine the radius of a drawn arc to which the device may be tted.

More specifically, an object of the invention is to provide a ldrafting implement consisting of a body or frame to the ends of which links Vare pivotally connected and which have 'additional or secondary links pivotally connected thereto with means for swinging the first-mentioned or primary links equally with relation to the body or frame and causing the secondary or additional links to automatically be swung relatively to the primary links through exactly equal angles. The device also comprises a bendable spline 'that is held against spaced bearing points adjacent the pivotal connection and which is deformed thereby into conformity with the arc of a true circle, thus providing a relatively compact, simple, and easily adjustal'ile device for drawing arcs.

Another object of the invention is to provide a drafting implement having the above-mentioned characteristics wherein a novel means is provided at the ends of the outermost links for retaining the bend-able spline iagainst the bearing points thereon and which yautomatically will properly bend the spline adjacent its ends, so as to conform to the arc of a circle.

Another object of the invention is to provide a, drafting implement that may be advantageously employed in drawing perspectives wherein a device suitable for use as a beam compass is utilized to provide an arcuate track that will guide the movement of a rule. The rule thus guided and functioning as a T-square will traverse an adjustable arcuate path instead of a linear path as in the case of a conventional T-square. By ladjusting the degree ofA curvature the location of the vanishing :point ofjthe perspective may be varied and other adj,nsti-ments,v are provided for properly loc-ating the device in drawing various perspectives.

Still another object of the invention is to provide a perspective machine having an adjustable arcuate guide means traversed by a rule and wherein means is provided for automatically adjusting the connection between the rule and the guide means to facilitate movements regardless of alterations in the degree of curvature of the guide.

With the foregoing 'and other objects in view, which will be mad-e manifest in the following -detailed description and specifically pointed out in the appended claims, reference is had to the accompanying drawings 'for an illustrative embodiment of the invention, wherein:

Figure 1 is a top plan View of a little more than one-h-alf of a drafting implement embodying the present invention which is suitable for use as a beam compass;

Fig. 2 is a View in fron't elevation of the same, parts being broken away;

Fig. 3 is a view similar to Fig. '1, but illustrating in dotted lines the position assumed by the various parts in forming an arc of `a circle. This view also illustrates the device as having ybeen converted into a perspective machine by the application of a rule thereto;

Fig. 4 is a view in elevation, parts being shown in vertical section taken substantially in the direction of the arrow 4 upon Fig. 3;

Fig. 5 is a sectional view taken vsubstantially upon the line `5--5 upon Fig. 3;

Fig. 6 is an end view in 'elevation of the structure illustrated in Fig. 3;

Fig. '7 is a vertical section taken substantially upon the line `1---1 upon Fig. 4;

Fig. 8'is a view similar to Fig. 3, but illustrating an alternative form of construction;

Fig. 9 is a sectional view taken substantially upon the line 9-9 upon Fig. 8;

Fig. 10 is a sectional view taken substantially upon the line 'I0-l0 upon Fig. 8;

Fig. 11 is a sectional view taken substantially upon the line II-ll upon Fig. 8;

Fig. 12 is a sectional view taken substantially upon the line 'l2-I2 upon Fig. 8;

Fig. '1-3 is a partial top plan view of the perspective machine illustrated in Fig. 8 and illustrating the spline thereof as having been bent or curved.

Referring to the accompanying drawings wherein similar reference characters designate similar parts throughout, and referring first to that simplified form of construction suitable for use as a beam compass, this form is only partially illustrated in Figs. 1 and 2 inasmuch as both.

sides or ends of the device are identical. It consists of a frame or body l0 of general T-shaped formation. At the center of this body there is rotatably mounted a screw I I rotatable by means of a. handle I2. The screw is threaded through a nut or yoke I3 that is slidably mounted on the body I and which has arms M and I5 pivotally connected thereto. Near each end of the body there are pivots I 6 and I1 which serve to pivotally connect innermost orprimary pairs :of links to the frame or body I9. Thus thepivot' I1 has links I8 and I 9 connected thereto and the pivot I6 serves to pivotally connect a corresponding pair of links. The outer ends of the links I8 and I9 L an angle of 57 for example the hub 21 will simultaneously becaused to rotate relative to the pivot are connected together by a pivot rpinf2'ilwhich serves to pivotally connect apairof .outer or additional links 2| and 22 to the links I8 and ,I9 i.

for swinging movement relatively thereto. These links, in turn, have their outer'ends connected by a pivot pin 23 which serves to pivotally conjnect thereto a pair of end-most links 24 and 25.

A circular hub 25S is .disposed about the pivot I1 and similar circular hub 21 is disposed about the pivot 20 so as to be rigid with the link'ZI. Another circular hub 28 isdisposed about the pivot pin 29 and is anchored'or rendered rigid with the link I9. Y'I [l'ie .pivot pin 23 carries Ya cir-` cular hub 29 disposed between the links 2| and 22 and which may be rigid with eitheror both of the links 24 and -25. Steel ribbon 39 is trained about the hubs 2.6 and 21'as `indicated. `.in dotted lines on Fig. 1. vThis ribbon has its ends anchored o n thev frame I8, such ,as is indicated at 3| and 32.. .The anchoring means ,is preferably adjustable so as to take up any slack in the ribbon as it is essential .that the ribbon be main tained taut at all times. In a .similar manner, a ribbon l3.3 is trained about the hubs 28 and 29 and has its ends anchored on the outermost path of links 24 and 25 ,such as by anchoring means 34v and which are likewiseadjustable to take up slack. Asvwill be observed frornthe `drawing' that end of the ribbon 3I which is trained over the forward side of hub v26 is twisted and passed therefrom' about the rearward sideof the hub 21and after passing around this hub the ribbon is again twisted and passed .against the rear side of hub 26 and is finally anchored Aat 32. In a similar manner rthat end of ribbon 33 which is anchored at 35 passes across the forward side of hub 29, Vis then twisted, and trained about-the hub. 28 after which it is again twisted before passing against the rear sideof. hub 29 and anchored at 34.

The arm I5carries at its forward end a pivot pin 36 that extends through eyes on the rear sides of the links I Sand I9 and in a similar manner arm I4 carries a pivot pin thatextends through corresponding eyes on the links attached to the pivot pin I6.

On rotation of the handle I2 to turn the screw I I the nut or yoke I3 will .be advanced either forwardly or rearwardly with relation to the body I D to simultaneously Push or pull on. the arms I4 and I5. If the arms. YI4 and I5.are pulled from the position shown in Fig.` 1 rearwardly, this will cause the pair of links-attached to the body HJi by the pivot pin I1 tofswing relatively to the body and the pair .of links that are pivoted atI will be caused to simultaneouslyswing through an equal angle with relation to the body. During this swinging movement the ribbon will be caused to wind around the forward side of the hub 26 and at the same time that reach of the ribbon bearing against the rear side of the hub 26 will commence to unwind therefrom. InV this manner, there will be *aV relative movement between the two crossed and-twisted reaches bepin A`ZJthrough 5. As the hub 21 is integral or rigid `Wi-tlizthe link-2l this link will be caused to swingfg5" withrelation to the links IB and i9 thus swinging aA hubl 29 about the center of pivot pin 29. During -'this'swinging movement of the hub 1 29 the ribbon 33 bearing against the forward side of hub 28 tends to wrap or wind up about this hub and that portion of the ribbon earing against the Yrear side' ofthe hub 128 will vtend to Lmwind therefrom, 'it beingjborne in Imind that hub 2 S is rigid with the link I9. This wrapping of the ribbon 33 on the Iforward side of hub 28 and its unwrapping from )the rear side thereof is translated throughthe crossed and twisted reachesto the hub29 vs0 that this hub is likewise caused to rotate throughthe sam'e 5 angle with relation to theflinks .2I and 22,'thus swinging links .2d and 25 .through a 5` angle about pin 23 as a center relative to the links .2| kand 22. While this relative,movement'lbetween the variouspairs of links is taking place on vthe right-'hand side of the body I0 the corresponding pairs of links which are to theleftof the pivot pin I 9 are like wise being caused toshift relatively to each .other in a similarin'anner so jthat whenever the handle I2 is rotated Athe `innermost or primary links attached to the body Iv-Dby .the pivots Iii-and I1 will beswung vthrough .the same angle and that the additional links or secondary links that are pivoted at 2U and.23, respectively, will be simultaneously yand accurately swung through the same anglewith relation to their pivots. The spacing of the various pivots is equal. That is, the distance :between the pivots IS and I1 is equal to the distancebetween the pivots I1 and 20 and between the pivots 20 and 23 so that the head of the vframe I9 vand the primary and secondary links will function as short chords of a circulary arc.

The true arc is established by a bendable spline 31 preferably formed of a thin strip of spring y steel which normally'tends to assume a flat or straight position as illustrated in Fig. 1. This spline has horizontal slots 38 formed therein at intervals opposite the various pivots. At the pivots thereare'forwardly vextending blocks 39 presenting arcuate lforward surfaces 4I),v the centers of curvature of which are coincident with the axes of their respective pivots. These arcuate surfaces provide spaced bearing points against which the rear side of the spline 31 will bear.

The spline maybe retained against these bearing points by means of headed pins 4 I, the heads of which bear against the forward side of the spline across the slots 38 and the shanks'of which are anchored inA the blocks 39. The heads of these pinsV serve to retain the spline in bearing engagement with the bearing points afforded by the arcuate surfaces 40 so that as the links are swung relatively to the frame and to each other as indicated by dotted lines on Fig. 3, the spline will be correspondingly bent into the arc of a circle. Geometrcally speaking, as the links of the chords established by 'the distances between the pivot pins are equal and the angles between the various links or chords are likewise equal, the pivot pins will consequently have their centers on the arc of a true circle. The position of the spline is governed or controlled ,with relation to these pivot pins being merely spaced therefrom by a distance equal to the radius of rcurvature of` the bearing surfaces 40. While` the position of the spline is thus governed opposite the various pivot pins the spline will tend to bend or bow evenly between these points due to the springiness of the metal of which it is formed and thus conform throughout its length to the arc of a circle. The radius of the circle will of course vary from infinity wherein the spline is straight as illustrated in full lines in Figs. 1 and 3 to a relatively short radius as illustrated by dotted lines on Fig. 3, depending upon the adjustment of the nut or yoke I3 by means of the screw Il. In this manner a relatively wide degree of adjustment through relatively long radii is permissible.

at 45. These links in turn are pivoted as at 46 to ears 41 that are on the link 2| and which are rigid therewith. The arrangement is such as the spline is flexed and the links 24 and 25 turn about the pin 23 relative to the links 2| and 22 that the link I44 causes the lever 43 to swing outwardly about 42 as a center. Each lever carries a stem 41 extending through a slot in the spline and provided with a vertical roller equipped head 48 bearing on the forward side of the spline so that as the spline is bent the head 48 will tend to draw the end of the spline rearwardly with relation to the endmost block 39 as indicated by dotted lines on Fig. 3, thus maintaining the curvature of the spline in conformity with the arc of a circle on both sides of the endmost block 39.

As a means of indicating the radius of curvature of the arc t which the spline is bent, the screw I is preferably equipped with a miter gear 49 meshing witha corresponding miter gear on the underside of a dial 50 rotatable about a center that is rigidly mounted on the body and which carries an index pointer 52. This dial may be graduated in terms of the length of the radius of curvature to which the spline is bent, and as the screw rotates to advance-orrestrict the nut or yoke |3 the dial will be simultaneously rotated with relation tothe indexpointer 52 to thus indicate the radius of the arc of the spline to which the device has been adjusted.r

The height of the spline is such as to extend downwardly beneath the lowermost links and pivot pins so that the bottom edge may be positioned directly on paper on a drawing board to form a guide against which an arc may be drawn or to enable the spline to -be bent to conform to a drawn arc when it is desired to determine its radius of curvature as will be indicated on the dial 50.

The rollers 63 and 64 are rotatably mounted respectively on the lower ends of vertical posts 65 and 66. 'Iheir companion or opposed rollers, indicated at 61 and 68, are rotatably mounted on blocks or slides 69 that are slidable in the-topsY of the posts and are urged downwardly therein by means of compression springs 1l) that are confined in vthe posts by means of plugs 1|. In'this manner the upper rollers 61 and 6B are urged by springs toward their respective lower rollers 63 and 64 so that the spline in effect is clamped between the rollers. The posts 65 and 66 are pivotally mounted for rotation about vertical axes by means of pivot bolts 12 which are on the ends of ahead 13. Links 14 and 15 are pivotally connected to ears 16 on the posts and to the pintle of a central roller 11. This central roller is rotatably mounted on a holder 18 (see Fig. 5) that is-urged towardthe spline by means of a cornpression spring 19 so that the central roller .11 is continually urged toward the spline. The purpose of this construction is to cause the axes of the pairs of rollers on the posts to automatically conform or adjustv themselves to the curvature of the spline. Thus, as illustrated in full lines on Fig. 3, the spline is shown as straight or as having an infinite radius of curvature.

Under these circumstances the four rollers 63.' 64, 61 and 68 should be in the same plane and should be rotatable about parallel axes. On the other hand, when the spline is curved, as illustrated in dotted lines on Fig. 3, the axesof rotation of the rollers 63 and 61 should converge toward the axes of rotation of the rollers 64 and 68. In other Words, the axes of rotation of the two pairs of rollers should be coincident with the radius of curvature to which the spline is bent. This automatic adjustment of the rollers is accomplished by the central roller 11 which bears on the forward face of the spline. When -the spline is straight the spring 19 is effective to extend the roller 11 the greatest distance in which case the links 14 and 15 connected thereto and to the posts swing the posts into the full line position shown in Fig. 3. On the other hand when the spline is bent it is convex betweenV the pairs of rollers so that the central roller 11 is caused to recede in the head 13 av short distance and thus actuate the links 14 and 15'to turn the postsfon their pivot bolts 12 into the dotted line position as illustrated in Fig. 3. In this manner it will be appreciated that the rollers are automatically adjusted on adjusting the curvature of the spline so that the pairs of rollers will be rotatable about axes co incident with the radius of curvature of the spline. Consequently, with this arrangement the head 13 can freely and easily roll on the spline regardless of the position to which the spline has been adjusted. Adjustment of the spline automatically adjusts the central roller 11 which, in turn, automatically adjusts the posts on which the pairs of rollers are mounted. As the rollersY 63, 64, |51` and 68 are grooved and the upper rollers are urged toward the lower rollers continually these rollers tend to center themselves with relation to the edges of the spline.

I'he head 13 has a fitting 80 pivotally connected thereto as at 8| (see Fig. 6) and this tting carries a clamp 82 to which an arm 83 may be detachably connected and which'is designed to rest iiatly on the' top surface of the board B. A suitable scale 84 may be applied to this arm and is slidable along the length thereof. Triangles or other drawing instruments may be `positionedagainst vthis scale in drawing the perspective. l

In the use of the device as above described there are preferably two perspective machines employed, one being attached to one side of the drawing board and another attached to the opposite side of the drawing board. These' ma-l chinesmay be adjustedabout 'the clamp `150 `as afcenter to the desired angles of perspective. The splines may then be adjusted so that their centers of curvature are representative of the desired vanishing points. When these adjustments 'have .been made the draftsman may develop his perspective from'the rule 84 on the arm 83k and it will be `appreciated that in the course of swinging the arm l|33 the head 13 of the carriage will progress along lthe length of the spline and will be positioned thereby so that regardless of the position Aassumed by the roller, any line `drawn against the rule will lead toward the selected vanishing point as represented by the center of curvature of the spline.

InFigs. 8 to 14, inclusive, an alternative `form of perspective machine is disclosed wherein there is a lgenerally T-shaped -frame indicated generally by the reference character 00. Within this Vframe there is rotatably mounted a screw 9| rotatable by means of a handle 92. 'This screwV has threaded thereon a nut 93 on the bottom .of which there Vis a rib that .isfslidable in asl'ot 04 'in the bottom of the frame to hold the nut against rotation sympathetically with the screw. vOn the top of the nut there is 'an index `or pointer garranged to traverse a scale 06 on the top of the frame that is calibrated to indicate the radius of curvature of the spline. Links '91 and 90 lare pivotally connected to the sides of the nut 93 so as to be'drawn inwardly thereby when the screw is rotated by its handle to vadvance the nut in this direction. At the center of the iframe there is an aperture that slidably receives a pin 99 which is anchored at its outer end to the center of the bendable spline |00. This spline, as previously described, is preferably formed of spring steel possessing a high degree of resiliency and the connection between the spline and the "pin 99 is intended to prevent lateral movement of the spline relatively'to'the frame 90 while permitting the cen ter of the spline to `move toward and away fromv theframe as is required in bending the spline. Compare Figs. 8 and 1'3. At the ends of the frame there are pivotally mounted thereon links |0| and |02 by means of pivot bolts |03A and |04. These links carry ears to which the links y91 and 98 are pivotally connected so that as the nut 93 is drawn inwardly by means of the screw 9| the links 91 and 98 will cause` the links |0| and |02 to swing about their Vpivot bolts |03 and |04 to assume angular positions with relation to the frame as illustrated on Fig. 13. Conversely, if the screw is reversely rotated to force the nut 93 outwardly, these links 97 and 98 will transmit the motion to the links |0| and |02 to swing them into a position in align# ment with the ends of the frame, allowingthe spline |00 to Yassume a straight positionas illustrated inFig. 8. On the pivot bolts |03 and |04 there are mounted guide blocks |05 and |00. These guide blockscan turn with relation to the pivot bolts and present forward surfaces concentric with respect to their axes of turning which is coincident with the axes of their respective pivot bolts. On this outer or forward concentric surface each block |05 and |06 presents a'rib |01'that extends through a slot |08 in the spline.

Retaining bolts |09 extend through the guide blocks and through their respective ribs and are equipped with washers ||0 that `are 'capable r`of sliding on the forward face of the spline |00.

Thus, while theforward concentricfacesof the 75A blocks 05 and '|06 will position `the spline |00 at these lpoints, the spline is capable of some sliding movement relative thereto and, although the blocks may turn with relation to their pivot bolts |03 andv |04, the'distance of the spline from the centers of the pivot bolts is maintained constant. At the outer ends of the links |0| and |02 there are similar guide blocks and ||2, respectively, but these guide blocks are preferably tightly bolted to their respective links such as by bolts or the equivalent, indicated at ||3. These guide blocks are similarly ribbed with the ribs extending .through slots in the spline so as to be capable of supporting the spline and likewise present outer forward surfaces concentric with the centers of their securingv bolts. In the case of these blocks, the lspline largely rolls on the forward faces of the blocks although some sliding movement of the spline relatively thereto is permissible.

A short distance inward from yeach of tne pivotI bolts |03 and |04 there'are additional pivots I4 and ||5 for links ||0 and These links in turn are Apivotally connected at |18 and ||0 to levers |20 and |2| intermediate their ends. These levers are in turn pivoted to the links |0| and |02 atL 22 and |23, respectively. They carry at their forward or outerends, T-shaped heads |24 and |25 that extend through slots in the spline with the heads bearing against the forward side of the spline. lThe links ||6 and I are preferably recessed, as illustrated on the drawing, to accommodate the heads of the pivots between the links 91 and S8, respectively, and their links i0| and |02. The primary punpose of links |6 and il is to form merely a direct connection between the pivots H4 and I5 and the pivots ||0 and ||9 on the levers. v

With this arrangement, when the nut 03 is drawn inwardly by the screw, the motion of the nut is transmitted through links 07 and 98 to links 0| and |02 to swing these links relativeh7 to the frame S0. During this swinging movement the pivots |22 and |23 on the links |0| and |02 will be swung about pivots |03 and |04 as centers. The links ||0 and ||1, however, are pivoted to the frame for swinging movement about pivots ||4 and l5 that are slightly spaced from pivots |03 and |04 so that as the links 0| and |02 are swung relatively to the frame there will be a corresponding relative movement between links ||6 and and their respective links |0| and |02. This movement causes the levers |20 and |2| to swing relatively to the links |0| and |02, respectively, in the course of bendingthe'spl-ine. Thus, when the spline is straight or the forward sides of all of the guide blocks |05, |06, and |12 are in the same straight line as illustrated in Fig. 8, the levers will have swung into a position wherein the heads |24 and |25 are in conformity therewith bearing on theforward side of the spline but allowing it to remain straight. On bending the spline into the position shown on Fig. 13, the levers |20 and |2| are swung outwardly, so as to bend the spline about the guide blocks and ||2 in conformity with a true arc of a circle. Beyond Ithe heads |24 and |25 the spline is, of course, unstressed and is not bent. However, @any portion of `the spline between the two heads |24 and |25 can be utilized either as a beam compass or as an arcuate guide or track for the carriage and arm of a perspective machine. When used as a perspective machine the structure, as above described, has a clamping bolt |26 extending through the link |0| and 9 through-the top of a C clamp |21. Thisfclan-lp has a tightening screw |28`ad`ap'ted toi tighten a vshoe |29 against the bottomfoftheedge ofafd-rawing board so that the entireFfstructure-ma-y Abe 'shifted/along the edge ofU-thedrawing board. f

The clamping screw carriesa-ha'ndle |30 which 1C lclamp and this protractor maybe used-'5to indicate theangle of perspectiva" The angle'may Vlbeldetermined by straightening the splinefover the protractor and readingtheiangle against'the straightened spline or, if desired, the link may carry an index or pointer arranged to traverse the protractor to indicate the angle.

A carriage is -provided designed to roll along the spline |00 and this carriage is generally of a similar construction to that previously described consisting essentially of a head |32 on fthe ends of which there are pivotally mounted posts |33 and |34 for swinging movement about vertical axes. These posts each carry opposed pairs of rollers, the lower rollers being indicated at |35 and the upper rollers at |36, which are urged toward the lower rollers by means of compression springs |31. Links |38 and |39 are pivotally connected to the posts and to the carrier of a central *i roller |40 that is urged to engage the forward side of the spline such as by a spring |4| The curvature of the spline between the pairs of rollers on the posts |33 and |34 governs the position of the roller |40 and this position in turn is translated by links |38 and |39 to swing or turn the posts |33 and |34 so that the axes of rotation of the rollers on the posts is always coincident with radii of curvature of the spline through their respective posts. In this manner the rollers are always positioned with rel-ation to the .curved spline so that the carriage will roll freely thereon.

In this form of construction it is possible to lock Ithe carriage in any adjusted position along the length of the spline and to fthis end a rubber shoe |42 is provided that can be advanced into frictional engagement with the forward side of the spline by means of a handle screw |43 mounted on the head |32. By advancing this shoe by means of the screw the carriage may be locked in any adjusted position and, conversely, on retracting the shoe the carriage is freed for rolling movement on the spline between the limits established by ythe heads |24 and |25. A fitting |44 is pivoted to the head |32 for swinging movement about a horizontal axis and fthe arm may be mounted thereon. In this form of construction the arm |45 is capable of swinging relatively to the tting |44 when the clamp |46 is loosened. The use of such a clamp and the ability to swing the arm |45 with relation to the fitting |44 is optional.

From the abovedescribed constructions it will be appreciated that an improved construction is devised for accurately bending a resilient, spline to conform to an arc of a circle. The spline so bent may be used either as a beam compass or as a track for a perspective machine. The arrangement is such that the spline will be accurately bent to conform to the arc of a circle at any radius from infinity to a relatively short radius. We find it advantageous in a device of this character not to attempt to bend the spline to an arc having a radius of less than ten inches. However, in any position between a ten-inch hradius and infinity vthe spline is held remarkably ltrue to the-arc of .a circle and its radius may be instantly-read on the scale onl the frame of the 'i jVarious changes may be" made in the details of construction without departing from the spirit and scope of the invention as defined by the appended claims.

We claim: y

1. A device of the class described comprising a frame, primary links pivotally connected to opposite sides of the frame for swinging movement relatively thereto, secondary links pivotally connected to the outer swinging ends of the primary links for swinging movement relatively thereto, means for simultaneously swinging the primary links equally relatively to the frame and causing the secondary links to swing relatively to the primary links in amounts equal to the movements of the primary links relatively to the frame, a bendable spline, bearing means at the pivotal connections between the primary links and the frame and between the secondary links and the primary links engageable with vthe spline and against which the spline may be bent to conform to the arc of a circle, and means engaging the ends of the spline for holding the spline against said bearing means.

2. A device of the class described comprising a frame, primary links pivotally connected to opposite sides of the frame for swinging movement relatively thereto, secondary links pivotally connected to the outer swinging ends of the primary links for swinging movement relatively thereto, means for simultaneously swinging the primary links equally relatively to the frame and causing the secondary links to swing relatively to the primary links in amounts equal to the movements of the primary links relatively to the frame, a bendable spline, bearing means at the pivotal connections between the primary links and the frame and between the secondary links and the primary links engageable with the spline and against which the spline may be bent to conform to the arc of a circle, levers pivotally mounted on the outer ends of the secondary links engageable with the forward face of the spline to hold the spline against the bearing means, and means for swinging said levers outwardly as the primary links and secondary links swing in bending the spline.

3. A device of the class described comprising a frame, links pivotally connected to opposite sides of the frame for swinging movement relatively thereto, means for simultaneously swinging the links equally relatively to the frame, a bendable spline, bearing means at the pivotal connections between the links and the frame and at the outerv ends of the links against which the spline may be bent to conform to the .arc of a circle, means pivotally mounted upon said links adjacent their outer ends engageable with the forward face of the spline to hold the spline against the bearing means, and means for swing- 151 ing, the V121511,-me1112101112:.71 nrmnsj outwardlyfrelaf tively; t0 said; linksVV as the, links` are swung rela'- tiYely to the frame tov bend the splinev in cnformty with the arc of a circle.

WILLIAM Q. JOHN Q. SULLIVAN.

REFEBENE Gif-FEDl Number` Numberf Number- 

